O. Mahmoodi Et Al. , "Extensive rheological evaluation of geopolymer mortars incorporating maximum amounts of recycled concrete as precursors and aggregates," Construction and Building Materials , vol.390, 2023
Mahmoodi, O. Et Al. 2023. Extensive rheological evaluation of geopolymer mortars incorporating maximum amounts of recycled concrete as precursors and aggregates. Construction and Building Materials , vol.390 .
Mahmoodi, O., Siad, H., Lachemi, M., Dadsetan, S., & ŞAHMARAN, M., (2023). Extensive rheological evaluation of geopolymer mortars incorporating maximum amounts of recycled concrete as precursors and aggregates. Construction and Building Materials , vol.390.
Mahmoodi, Obaid Et Al. "Extensive rheological evaluation of geopolymer mortars incorporating maximum amounts of recycled concrete as precursors and aggregates," Construction and Building Materials , vol.390, 2023
Mahmoodi, Obaid Et Al. "Extensive rheological evaluation of geopolymer mortars incorporating maximum amounts of recycled concrete as precursors and aggregates." Construction and Building Materials , vol.390, 2023
Mahmoodi, O. Et Al. (2023) . "Extensive rheological evaluation of geopolymer mortars incorporating maximum amounts of recycled concrete as precursors and aggregates." Construction and Building Materials , vol.390.
@article{article, author={Obaid Mahmoodi Et Al. }, title={Extensive rheological evaluation of geopolymer mortars incorporating maximum amounts of recycled concrete as precursors and aggregates}, journal={Construction and Building Materials}, year=2023}